Initial Power-Up - AVS Electronics OUTSPIDER PA Manual De Instrucciones

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Main Features
w OUTSPIDER can be connected in the traditional way using relay contacts or by way of RS485 serial to the XSATHP satellite or directly to the pre-set control panels.
w OUTSPIDER features pet immunity to small animals up to 70 cms height with all type of lenses
w OUTSPIDER PA is made of a double infrared, developed for both indoor and outdoor protection.
w OUTSPIDER DT and OUTSPIDER DT WS(UB)(U) are composed of a double infrared and a planar microwave, developed for both indoor and outdoor protection.
w OUTSPIDER PA WS(UB)(U) and OUTSPIDER DT WS(UB)(U) are volumetric presence detectors, with an integrated single-frequency radio transmission module compatible with AVS
Electronics receivers and central stations.
w OUTSPIDER PA WS(UB)(U) and OUTSPIDER DT WS(UB)(U) are volumetric presence sensors, equipped with terminal block for connection to an external radio transmission module.
w OUTSPIDER PA WS and OUTSPIDER DT WS are powered by a 3.6 V lithium battery. The U model is supplied without a battery
w OUTSPIDER DT is made of a double infrared and a planar microwave, developed for both indoor and outdoor protection.
w OUTSPIDER is equipped with a microprocessor that completes a signal analysis and manages them based on the operational mode selected.
w OUTSPIDER is equipped with a particular circuit that makes it possible to read the temperature and automatically adjusts sensitivity (Thermal compensation), depending on the
ambient temperature; however the sensitivity of the detector may significantly vary within certain temperature intervals.
w OUTSPIDER is equipped with a circuit that avoids that the microprocessor goes in block.
w OUTSPIDER PA is equipped with a buzzer and a series of LED in order to give an optical-acoustic signal (Walk Test) even if a block is applied to the sensor.
w OUTSPIDER DT is equipped with a buzzer and an LED in order to give an optical-acoustic signal (Walk Test) only if a block is not applied to the sensor or it is set in Security mode.
w OUTSPIDER PA WS(UB)(U) and OUTSPIDER DT WS(UB)(U) are equipped with a buzzer and a led to provide a visual-acoustic warning (Walk Test)
w OUTSPIDER is equipped with an anti-masking circuit on the two infrared sections made of 4 side TX LEDs and 1 central RX LED also capable of signalling the presence of filth on the
E
lenses.
w OUTSPIDER PA and OUTSPIDER DT are equipped with an auxiliary input (AUX) to handle an additional alarm input or for the anti-tearing sensor circuit
N
w OUTSPIDER PA WS(UB)(U) and OUTSPIDER DT WS(UB)(U) are equipped with an input (T T) to handle the anti-tearing sensor circuit
w OUTSPIDER is equipped with an auxiliary input (AUX) for managing an additional alarm input or the anti-tampering circuit of the actual sensor.
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w OUTSPIDER can adapt the coverage field, bases on requirements, using a series of lenses among those supplied.

Initial power-up

When powering the first time, OUTSPIDER PA and OUTSPIDER DT remain inhibited for about 60 seconds, during which the yellow and red LED, if enabled, flash alternatively and the
buzzer emits an intermittent signal.
At the first power supply of the OUTSPIDER PA WS(UB)(U) and OUTSPIDER DT WS(UB)(U)) it is necessary to let the sensor rest with the cover on for about 90 seconds during which time
it acquires the average signal of the various analog signals it will be controlling. It is important that the cover is kept closed so that it does not distort the average anti-mask signal and
to avoid false detections.
Introduction
OutSpider DT/Outspider DT WS(UB)(U) and OutSpider PA/Outspider PA WS(UB)(U) models are sensors designed to protecting outdoor areas where meteorological conditions,
environmental elements, freely roaming animals, etc. can determine a high risk of false alarms. Differently from conventional sensors, for indoor environments, that generally only go in
alarm status based on the intensity, or frequency at the most, of detected signals, these outdoor detectors analyse signals generated from the infrared and microwave sensors more
accurately, also considering, besides the two aspects mentioned above, elements such as degree of similarity and coincidence between the two infrared signal (correlation) and, in the
double technology version, the presence of a signal in the microwave that is characterised by movement mostly in one direction instead of two way (typical of oscillations: for ex. plants
moved by the wind) and the degree of synchronisation between the signals from the two technologies.
Processing this information, according to software algorithms and parameters pre-set by the installer, makes it possible to establish if a determined set of signals must be considered an
alarm or not. Since there is a greater number of conditions that must be satisfied for a signal to be considered and alarm, it is logical that there is a lesser degree of "reactivity" in this type
of detectors compared to indoor ones, this does not mean a lesser capacity, but a more accurate selection of stimulus to be considered valid alarms. This means that, compared to a
conventional sensor, sometimes the sensor may delay in giving an alarm, especially in proximity: this is caused by the fact that, in vicinity, the target generates signals that are more
confusing and deformed, because at the same time it intercepts a greater number of rays, and this makes it more difficult to obtain a positive verification of the wave shapes. This type of
sensor responds better when the target moves at a greater distance, near maximum capacity.
In order to facilitate operation of this type of sensor, in order to guarantee maximum possible similarity between pyroelectric signals, it is recommended to adjust circuit board position based
on installation height, as indicated by the notches present on the board, then acting on inclination of the entire sensor, through the bracket joint, in order to adjust actual coverage. One must
avoid shortening or lengthening capacity by moving the board inside the container, as is done instead with the Fresnel indoor lens detector.
NOTE: where not clearly indicated, instructions refer to both models.
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